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Obtain of Interspecific Hybrid Between Chinese Cabbage and Brassica juncea and Characterization

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:
2021年03
Page:
52-56
Research Field:
Publishing date:

Info

Title:
Obtain of Interspecific Hybrid Between Chinese Cabbage and Brassica juncea and Characterization
Author(s):
HU Jingxuan1LIU Fuqiang2ZHANG Yueqiang1WANG Yanhua3XUAN Shuxin3ZHANG Weiwei1
(1.College of Life Science,Hebei Agricultural University,Baoding,Hebei 071001;2.Baoding Academy of Agricultural Sciences,Baoding,Hebei 071000;3.College of Horticulture,Hebei Agricultural University,Baoding,Hebei 071001)
Keywords:
Chinese cabbageBrassica juncea L.interspecific hybridizationallotriploidmeiosis
PACS:
-
DOI:
10.11937/bfyy.20201428
Abstract:
Chinese cabbage ‘A03’(2n=2x=20,AA) and Brassica juncea‘AABB’(2n=4x=36,AABB) were used as materials to obtain the allotriploid(2n=3x=AAB=28).The results showed that the growth potential of the triploid was stronger,the leaf color was deeper than the two parents,and the plant type was biased towards B.juncea.The leaves,flowers and buds also had both the traits of the two parents.The meiosis observation showed that at the diakinesis,bivalent,univalent and multivalent were generally formed,and homeology were showed between A genome and the B genome;At metaphase I,1-8 isolated chromosomes were often observed.At anaphase I,there were more abnormal phenomena such as chromosomes lagging,chromosome lossing and chromatids earlier separating,the sum of the number of chromosomes divided in to two poles were morethan 28.At anaphase II,the number of chromosomes assigned to each pole varied from 10 to 15,most of which were 12-13,and chromosome fragments existed.The obtain of Chinese cabbage-B.juncea allotriploid (AAB) laid the foundation for creatingalien addtion line with AA+B chromosome and studying the genetic relationship between A and B genomes.

References:

[1]魏丽华,李象松,李炫丽,等.萝卜-芥蓝杂种 F1代创制及杂种鉴定[J].武汉植物学研究,2010(2):243-245.[2]SINGH R N,SAHI A N,TIWARI D N.Cytomorphological studies of spontaneous and artificial triploids and their role in the evolution of hexaploid Solanum nigrum L.[J].Cytologia,1992,57(1):1-7.[3]CHHAYA A,BHARTI K,HITESH K,et al.Development and characterization of Brassica juncea-fruticulosa introgression lines exhibiting resistance to mustard aphid (Lipaphis erysimi Kalt)[J].BMC Genetics,2012(13):1-9.[4]支肖,曹丽雯,于宁宁,等.芸薹属蔬菜遗传改良与种质创新研究进展[J].中国蔬菜,2018(3):26-31.[5]谭晨,朱开元,向依,等.芸薹属B基因组异附加系材料高效鉴定体系的创建[J].分子植物育种,2018(10):3227-3233.[6]张德双,张凤兰,徐家炳.芸薹属异源六倍体 CGMCCNo.2553 多类型再生植株的获得[J].长江蔬菜,2009(6):15-18.[7]傅强.羽衣甘蓝杂交育种前期研究及其它芸薹属观赏品系的培育[D].武汉:华中农业大学,2006.[8]张豹.甘蓝型油菜导入系构建、重要农艺性状 QTL 分析和白花基因克隆[D].武汉:华中农业大学,2015.[9]董辉,顾爱侠,王彦华,等.大白菜:结球甘蓝单体异附加系 AC5及其亲本营养品质分析与评价[J].中国食品学报,2016,16(9):199-205.[10]董辉,顾爱侠,轩淑欣,等.大白菜:结球甘蓝单体异附加系AC3营养成分分析及评价[J].营养学报,2014(4):401-403.[11]谢永俊,刘旭云,万洪辉.云南地方油菜种质资源抗(耐)病毒病/菌核病和霜霉病的鉴定研究[J].云南农业大学学报,2001(2);89-92.[12]刘淑艳,刘忠松,官春云.芥菜型油菜种质资源研究进展[J].植物遗传资源学报,2007,8(3):351-358.[13]周庆红,周灿,范淑英.远缘杂交在芸薹属作物育种中的应用研究进展[J].北方园艺,2015(2):165-170.[14]王丹,王文和,史滟滪.芥菜型油菜与白菜正反杂交地胚胎学研究[J].植物学通报,2006,23(2):158-163.[15]刘后利.油菜遗传育种学.[M].北京:中国农业大学出版社,2000.[16]郝方圆.异源三倍体甘蓝型油菜染色体遗传及后代核型分析研究[D].呼和浩特:内蒙古大学,2018.[17]乔海云,李菲,张淑江,等.菜薹-青花菜种间三倍体 AAC 的合成及其生殖特性研究[J].园艺学报,2012,39(4):655-660.[18]杨妍.异源三倍体甘蓝型油菜(ACC)减数分裂期分子细胞学研究[D].郑州:郑州大学,2016.[19]KAMSTRA S,de JONG J,JACOBSEN E M,et al.Meiotic behaviour of individual chromosomes in allotriploid alstroemeria hybrids[J].Heredity,2004,93(1):15-21.

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Last Update: 2021-05-27